用于图像配准的度量学习

Metric Learning for Image Registration.

作者信息

Niethammer Marc, Kwitt Roland, Vialard François-Xavier

机构信息

UNC Chapel Hill.

University of Salzburg.

出版信息

Proc IEEE Comput Soc Conf Comput Vis Pattern Recognit. 2019 Jun;2019:8455-8464. doi: 10.1109/cvpr.2019.00866. Epub 2020 Jan 9.

DOI:10.1109/cvpr.2019.00866

PMID:32523327

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7286567/

Abstract

Image registration is a key technique in medical image analysis to estimate deformations between image pairs. A good deformation model is important for high-quality estimates. However, most existing approaches use ad-hoc deformation models chosen for mathematical convenience rather than to capture observed data variation. Recent deep learning approaches learn deformation models directly from data. However, they provide limited control over the spatial regularity of transformations. Instead of learning the entire registration approach, we learn a spatially-adaptive regularizer within a registration model. This allows controlling the desired level of regularity and preserving structural properties of a registration model. For example, diffeomorphic transformations can be attained. Our approach is a radical departure from existing deep learning approaches to image registration by embedding a deep learning model in an optimization-based registration algorithm to parameterize and data-adapt the registration model itself. Source code is publicly-available at https://github.com/uncbiag/registration.

摘要

图像配准是医学图像分析中的一项关键技术，用于估计图像对之间的变形。一个好的变形模型对于高质量的估计很重要。然而，大多数现有方法使用为数学便利性而选择的临时变形模型，而不是为了捕捉观测数据的变化。最近的深度学习方法直接从数据中学习变形模型。然而，它们对变换的空间正则性提供的控制有限。我们不是学习整个配准方法，而是在配准模型中学习一个空间自适应正则化器。这允许控制所需的正则性水平并保留配准模型的结构属性。例如，可以实现微分同胚变换。我们的方法与现有的深度学习图像配准方法有根本的不同，通过将深度学习模型嵌入基于优化的配准算法中，对配准模型本身进行参数化和数据自适应。源代码可在https://github.com/uncbiag/registration上公开获取。

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